JP3823012B2 - Discharge lamp lighting circuit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for securing a supply voltage to a control system circuit and taking sufficient safety measures even when supply of power supply voltage to a discharge lamp or a lighting circuit is cut off due to an overcurrent protection means. .
[0002]
[Prior art]
As a lighting circuit for a discharge lamp (such as a metal halide lamp), a configuration including a DC power supply circuit, a DC-AC conversion circuit, and a starting circuit (so-called starter circuit) is known.
[0003]
FIG. 8 shows a conventional configuration example a, in which power is supplied from the DC power source b to the lighting circuit e through the overcurrent protection element c and the lighting switch d.
[0004]
A control circuit g is provided for controlling the power supply to the discharge lamp f connected to the output terminal of the lighting circuit e, and the power supply voltage supplied to the circuit is overcurrent from the DC power supply b. The direct current voltage passed through the protection element c and the lighting switch d is used as it is, or is generated by the power supply circuit h based on the direct current voltage.
[0005]
[Problems to be solved by the invention]
By the way, in the event of abnormal discharge lamp lighting or when the input voltage to the lighting circuit becomes an abnormal value, if the power supply sufficient to operate the control circuit can always be secured, the operation of the lighting circuit will occur when an abnormality occurs. By stopping, it is possible to prevent harm to the human body due to high voltage, or to prevent harmful effects such as smoke and fire caused by excessive power output.
[0006]
However, in the conventional circuit, when the overcurrent protection element c is activated and the power supply from the DC power supply b is cut off, the power supply to the control circuit g is also stopped. There is a problem that it is not possible to take measures (for example, lighting of a substitute light source or notification of occurrence of an abnormality).
[0007]
Therefore, the present invention is sufficient to ensure the power supply to the control circuit even when the power supply to the discharge lamp is interrupted by the overcurrent protection means interposed between the DC power supply and the lighting circuit. The task is to take safety measures.
[0008]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention uses a supply voltage from a DC power supply via an overcurrent protection means as an input voltage, a DC power supply unit for converting the input voltage into a desired DC voltage, and the DC power supply. A DC-AC converter that supplies the discharge lamp after converting the output voltage of the unit to an AC voltage, a start-up circuit for starting by applying a high-pressure pulse to the discharge lamp, and a voltage applied to the discharge lamp or flowing in the discharge lamp It is safe when an abnormality occurs by detecting the current or further detecting the input voltage and controlling the power supplied to the discharge lamp, or determining whether an abnormality has occurred in the discharge lamp lighting state or the input voltage. In a discharge lamp lighting circuit provided with a control circuit for taking countermeasures , even if the overcurrent protection means works and the power supply to the discharge lamp is cut off, the position from the DC power source side than the overcurrent protection means Take Voltage generated from the voltage or the voltage is in which is supplied to the control circuit as a power supply voltage.
[0009]
Therefore, according to the present invention, even if the overcurrent protection means works and the power supply to the discharge lamp cannot be performed, the voltage acquired from the position on the DC power supply side with respect to the overcurrent protection means A supply voltage to the control circuit can be obtained.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a basic configuration of a discharge lamp lighting circuit 1 according to the present invention, and includes the following components (numbers in parentheses indicate symbols).
[0011]
・ DC power supply (2)
・ Overcurrent protection means (3)
・ DC power supply (4)
・ DC-AC converter (5)
・ Start-up circuit (6)
-Control circuit (7).
[0012]
In this circuit, the DC power supply unit 4 is configured to receive power supply from the DC power supply 2 via the overcurrent protection means 3. That is, the supply voltage from the DC power supply 2 through the overcurrent protection means 3 (for example, an overcurrent protection element such as a fuse or a breaker) is supplied to the DC power supply unit 4 as an input voltage. The power supply unit 4 converts the input voltage into a desired DC voltage in accordance with a control signal from the control circuit 7 and outputs it. For example, a DC-DC converter (flyback type, chopper type, etc.) having a switching regulator configuration is used.
[0013]
The DC-AC converter 5 is provided for applying the output voltage of the DC power supply unit 4 to the AC lamp after being converted into an AC voltage. For example, a bridge-type circuit configuration using a plurality of pairs of semiconductor switching elements. However, as far as the present invention is concerned, any configuration may be used, and the AC voltage waveform supplied to the discharge lamp 8 is also sinusoidal. It does not matter whether it is a wave or a rectangular wave.
[0014]
An activation circuit 6 is provided to activate the discharge lamp 8 by applying a high-pressure pulse. The pulse is generated at a predetermined timing from the time when the power to the discharge lamp 8 is turned on. 5 is superimposed on the output voltage 5 and applied to the discharge lamp 8.
[0015]
The control circuit 7 has one or both of the following functions.
[0016]
(A) The voltage applied to the discharge lamp, the current flowing through the discharge lamp, or an equivalent signal thereof is detected to control the power supplied to the discharge lamp, or to determine whether an abnormality has occurred in the lighting state of the discharge lamp. (B) A function that detects an input voltage to the DC power supply unit and determines whether an abnormality has occurred in the input voltage.
[0017]
That is, (A) is first required to ensure that the power supply to the discharge lamp 8 is normally performed. For example, PWM (pulse) is used for control of the DC-DC converter constituting the DC power supply unit 4. When the width modulation method is adopted, a control signal whose duty cycle changes according to the voltage or current detection signal of the discharge lamp 8 is generated and supplied to a DC-DC converter (internal switching element). The output is controlled by.
[0018]
In addition, an abnormality in the lighting state of the discharge lamp 8, for example, detecting that the current flowing through the discharge lamp 8 is abnormally small and cannot be lit, or an overcurrent or direct current in the DC power supply unit 4 is detected. -It is also the role of the control circuit 7 to detect the operation stop of the AC converter 5 or the like. That is, the defensive range of the control circuit 7 includes abnormality detection or abnormal state determination processing.
[0019]
For detection of the voltage and current of the discharge lamp 8, a voltage detection unit 9 (voltage dividing resistor, etc.) and a current detection unit 10 (voltage conversion shunt resistor, etc.) are arranged at the output stage of the DC power supply unit 4. Can be obtained.
[0020]
(B) is a function for determining an abnormality in the input voltage to the DC power supply unit 4, for example, the magnitude of the input voltage is lower than the allowable range, or conversely excessive. It is required to protect the discharge lamp and the lighting circuit from harmful effects caused by fluctuations in the power supply voltage.
[0021]
By the way, when the current flowing through the lighting circuit becomes excessive and the overcurrent protection means 3 is activated, power supply to the DC power supply unit 4 and subsequent circuits and the discharge lamp 8 is not performed. For example, when a fuse is used as the overcurrent protection means 3, the DC power input is lost in a situation where the DC input current increases and the fuse blows (such as a DC-DC converter failure). As a result, the lighting circuit cannot operate.
[0022]
However, in application to a light source for a vehicle, it is not a preferable choice to leave the state where the discharge lamp cannot be turned on in consideration of the safety of vehicle travel, and some abnormality occurs in the lighting of the discharge lamp. It is desirable to take measures such as notifying the driver of this or turning on a substitute light source.
[0023]
For this purpose, it is necessary to ensure the power supply to the control circuit 7 even when the overcurrent protection means 3 is activated .
[0024]
(I) A mode in which a voltage acquired from a position closer to the DC power supply 2 than the overcurrent protection means 3 or a voltage generated from the voltage is supplied to the control circuit 7 as a power supply voltage. (II) Separate system from the DC power supply 2 Or a voltage generated from the voltage is supplied to the control circuit 7 as a power supply voltage.
[0025]
First, regarding the form (I), the supply voltage from the DC power supply 2 via the first overcurrent protection means 3 is supplied to the DC power supply unit 4 constituting the lighting circuit, and from the DC power supply 2. A configuration in which a supply voltage via the second overcurrent protection means or a voltage generated from the voltage is supplied to the control circuit 7 as a power supply voltage can be mentioned.
[0026]
FIG. 2 shows the main part of such a configuration example 11.
[0027]
As shown in the figure, a power supply voltage is supplied from the DC power supply 2 to the DC power supply section 4 of the lighting circuit via the first overcurrent protection means 3 and the switch element SW1, and is branched from the DC power supply 2. After being divided at a point “A” (a connection point between the DC power supply 2 and the first overcurrent protection means 3), power is supplied to the power supply voltage generation circuit 13 via the second overcurrent protection means 12 and the switch element SW2. Is configured to be performed.
[0028]
Although there is a form in which the power supply voltage passed through the second overcurrent protection means 12 and the switch element SW2 is supplied to the control circuit 7 as it is, in this example, the voltage generated by the power supply voltage generation circuit 13 (this is expressed as “Vcc”). ").) Is supplied to the control circuit 7. The first switch element SW1 disposed on the power supply path from the DC power supply 2 to the DC power supply unit 4 and the second switch element SW2 disposed on the power supply path to the control circuit 7 are synchronized with each other. The switch elements are closed when the discharge lamp 8 is turned on.
[0029]
Examples of the configuration of the power supply voltage generation circuit 13 include the following examples, but the configuration and method for voltage generation are not limited.
[0030]
・ Configuration of three-terminal regulator (see Fig. 3)
・ Configuration of series regulator (See Fig. 4)
・ Configuration of switching regulator (see Fig. 5)
[0031]
3 includes a three-terminal regulator IC 14 and capacitors C1 and C2 respectively attached to its input / output terminals. In FIG. 4, an NPN transistor 15, a Zener diode 16, capacitors C1 and C2, and a resistor R are provided. The example used is shown. 5 shows a transformer 17, a capacitor C1 provided on the primary side of the transformer 17, a switching element 18 (indicated by a symbol of a switch in the figure), and an output voltage by driving the switching element 18. An example of a flyback type circuit constituted by a voltage control unit 19 for making the voltage constant, and a diode 20 and a capacitor C2 arranged on the secondary side of the transformer 17 is shown.
[0032]
In the circuit shown in FIG. 2, even if the first overcurrent protection unit 3 works and power cannot be supplied to the DC power supply unit 4 of the lighting circuit, the second overcurrent protection unit 12 It can be seen that the power supply to the control circuit 7 is performed and the operation of the circuit is guaranteed as long as it is not cut off.
[0033]
As for the form (II), the control circuit 7 is supplied even when the overcurrent protection means 3 is activated by supplying the control circuit 7 with a voltage different from the DC power source 2 for the lighting circuit or a voltage generated from the voltage. It is intended to secure the power supply to.
[0034]
FIG. 6 shows a main part of such a configuration example 21.
[0035]
As shown in the figure, the lighting circuit is configured such that the power supply voltage is supplied from the DC power supply 2 to the DC power supply unit 4 of the lighting circuit via the overcurrent protection means 3 and the switch element SW1, but the control circuit 7 The power supply path to is different from the power supply path to the lighting circuit.
[0036]
That is, another system power supply voltage (for example, an ignition voltage is used in the case of an automobile, which will be referred to as “BB” hereinafter) is supplied to the power supply voltage generation circuit 13 via the switch element SW2. It has a configuration.
[0037]
As described above, the first switch element SW1 and the second switch element SW2 are opened and closed in synchronization with each other.
[0038]
Thus, in this circuit, even if the overcurrent protection means 3 works and power cannot be supplied to the DC power supply unit 4 of the lighting circuit, power is supplied to the control circuit 7 based on the power supply voltage BB. As long as the operation of the control circuit 7 is guaranteed.
[0039]
In the circuit described above, when the overcurrent protection means 3 provided on the power supply path from the DC power supply 2 to the DC power supply unit 4 works and the power supply to the discharge lamp 8 is cut off, the vehicle traveling safety The following is a list of preferable countermeasures to be performed by the control circuit 7 in order to guarantee the performance.
[0040]
(I) Sending a control signal from the control circuit to the lighting circuit of the auxiliary light source to turn on the auxiliary light source as a substitute for the discharge lamp. (Ii) Sending a signal from the control circuit to the display means and abnormal lighting of the discharge lamp. (Iii) Combined use of (i) and (ii)
First, with regard to (i), when the power supply to the lighting circuit is cut off and the discharge lamp cannot be turned on, the auxiliary light source is immediately turned on to ensure sufficient illumination light.
[0042]
In addition, in application to a vehicular lamp, it is preferable from the viewpoint of traveling safety to attach a necessary number of auxiliary light sources as an alternative light source for a discharge lamp from the viewpoint of running safety, but the cost and the arrangement space of the apparatus However, for example, a discharge lamp is used as a headlamp light source (running beam light source or low-beam light source), and an auxiliary headlight (fog lamp, clearance lamp, cornering lamp, etc.) light source is used. When used as an auxiliary light source, or when a discharge lamp is used as one of the light source for traveling beam and low-beam light source constituting the light source for headlamp, the other light source is used as auxiliary light source And the like.
[0043]
As for (ii), the driver can be alerted by notifying the driver of the fact that the discharge lamp cannot be lit by display means (indicator or the like). That is, when the discharge lamp can no longer be lit, it should be notified to the vehicle driver so as to encourage replacement of the discharge lamp or repair of the lighting circuit.
[0044]
FIG. 7 shows a circuit configuration example 22 for turning on the auxiliary light source when the discharge lamp cannot be turned on.
[0045]
When the control circuit 7 detects that the discharge lamp 8 cannot be turned on, the NPN transistor 23 is turned on by the output signal. The collector of the transistor is connected to a coil 24b of the relay 24 for lighting the auxiliary light source and a light emitting element 25 (for example, a light emitting diode or a light bulb), which are connected in parallel to each other and supplied with a predetermined voltage from the power supply terminal 26. (The supply voltage to the DC power supply unit 4 is a different system voltage, for example, the input voltage of the power supply voltage generation circuit 13 in FIG. 2, etc.). Then, when the contact 24a is closed, the auxiliary light source 27 is turned on, and at the same time, the light emitting element 25 is illuminated. Since the light emitting element 25 constitutes an indicator that informs the driver of the lamp abnormality, when the driver notices this, the driver can immediately recognize that the auxiliary light source 27 has been turned on due to the occurrence of the abnormality.
[0046]
As for the detection method of the state in which the discharge lamp cannot be turned on, the voltage value and current value applied to the discharge lamp are monitored to detect whether or not these are within the allowable range, and the circuit operation stoppage is detected. Various methods such as a method for determining whether or not the DC input voltage is within an allowable range by detecting the comparison with a threshold value have been known so far, and any detection method may be used in the present invention. Therefore, the detailed description is abbreviate | omitted.
[0047]
Further, in the configuration shown in FIG. 7, the relay coil and the light emitting element are driven by one transistor. However, separate driving transistors may be provided for each, and the light emitting element blinks. Various embodiments such as a combination of the above circuit, an alarm sound generation circuit, and the like are possible.
[0048]
Regarding the combined use of (i) and (ii) shown in (iii) above, if the substitute light source is turned on immediately when the discharge lamp stops turning on, there is a risk that the driver will not be aware of the occurrence of abnormality, and repair If the measures such as replacement are neglected as a result, for example, the following inconvenience is concerned.
[0049]
-When the auxiliary light source stops illuminating, there is no alternative lighting means at all, which is dangerous because it forces the driver to travel in the dark at night.
[0050]
-If the state without being noticed abnormally is sustained for a long period of time, there will be a problem of increased load on the power source due to wasteful power consumption, danger of electric shock, and the like.
[0051]
Therefore, the notification to the driver by (ii) further increases the effectiveness in the case of employing (i).
[0052]
【The invention's effect】
As is apparent from the above description, according to the invention according to claim 1, even if the overcurrent protection means works and power cannot be supplied to the discharge lamp, the overcurrent protection means Thus , the supply voltage to the control circuit can be obtained from the voltage acquired from the position on the DC power supply side .
[0053]
According to the second aspect of the present invention, the supply voltage from the DC power source via the second overcurrent protection means or the voltage generated from the voltage is supplied to the control circuit. As long as the power supply to the control circuit is not interrupted by the overcurrent protection means, the operation of the control circuit is guaranteed.
[0054]
According to the third aspect of the present invention, since the first and second switch elements are opened and closed in synchronism, adverse effects caused by deviations in the opening and closing timings of these switch elements (unstable circuit operation) Can be prevented.
[0055]
According to the invention of claim 4, when the power supply to the discharge lamp is interrupted by the overcurrent protection means, the required illumination light quantity can be guaranteed by turning on the auxiliary light source as a substitute for the discharge lamp. it can.
[0056]
According to the invention which concerns on Claim 5, when the electric power supply to a discharge lamp is interrupted | blocked by the overcurrent protection means, it is notified that abnormality has arisen about lighting of a discharge lamp, and replacement | exchange and lighting of a discharge lamp are carried out. It is possible to prompt circuit repair.
[Brief description of the drawings]
FIG. 1 is a circuit block diagram showing a basic configuration of a discharge lamp lighting circuit according to the present invention.
FIG. 2 is a diagram showing a main part of the configuration.
FIG. 3 shows a configuration example of a power supply voltage generation circuit together with FIGS. 4 and 5, and this figure shows an example using a three-terminal regulator.
FIG. 4 is a diagram illustrating a configuration example of a series regulator.
FIG. 5 is a diagram illustrating a configuration example of a switching regulator.
FIG. 6 is a diagram showing a main part of a configuration for supplying a power supply voltage to a control circuit from a power supply of another system.
FIG. 7 is a diagram illustrating a configuration example for turning on an auxiliary light source and reporting by a light emitting element.
FIG. 8 is a diagram showing a conventional circuit configuration.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Discharge lamp lighting circuit, 2 ... DC power supply, 3 ... Overcurrent protection means, 3 ... 1st overcurrent protection means, 4 ... DC power supply part, 5 ... DC-AC conversion part, 6 ... Starting circuit, 7 ... Control circuit, 8 ... discharge lamp, 12 ... second overcurrent protection means, 27 ... auxiliary light source, SW1 ... first switch element, SW2 ... second switch element

Claims (5)

A supply voltage from the DC power supply through the overcurrent protection means is used as an input voltage, and the DC power supply section for converting the input voltage into a desired DC voltage, and the output voltage of the DC power supply section after being converted into an AC voltage are released. A DC-AC converter for supplying the lamp, a starting circuit for starting by applying a high-pressure pulse to the discharge lamp, a voltage applied to the discharge lamp or a current flowing through the discharge lamp, or further detecting the input voltage. And a control circuit for controlling the power supplied to the discharge lamp or determining whether an abnormality has occurred in the lighting state of the discharge lamp or the input voltage and taking safety measures when the abnormality occurs. In the lighting circuit,
Even when the overcurrent protection means works and the power supply to the discharge lamp is cut off, the voltage acquired from the position on the DC power supply side than the overcurrent protection means or the voltage generated from the voltage is the power supply voltage. The discharge lamp lighting circuit is supplied to the control circuit as described above. In the discharge lamp lighting circuit according to claim 1,
A supply voltage from the DC power supply via the first overcurrent protection means is supplied to the DC power supply unit, and a supply voltage from the DC power supply via the second overcurrent protection means or a voltage generated from the voltage is supplied. A discharge lamp lighting circuit that is supplied as a power supply voltage to a control circuit. In the discharge lamp lighting circuit according to claim 1 or 2,
A first switch element is disposed on the power supply path from the DC power supply to the DC power supply unit, and a second switch element is disposed on the power supply path to the control circuit so that the first and second switch elements are synchronized. A discharge lamp lighting circuit characterized in that the lamp is opened and closed. In the discharge lamp lighting circuit according to claim 1, claim 2 or claim 3,
When the overcurrent protection means provided on the power supply path from the DC power supply to the DC power supply unit works and the power supply to the discharge lamp is interrupted, a control signal is sent from the control circuit to the lighting circuit of the auxiliary light source. The discharge lamp lighting circuit is characterized in that the auxiliary light source is lit as a substitute for the discharge lamp. In the discharge lamp lighting circuit according to claim 1, claim 2, claim 3 or claim 4,
When the overcurrent protection means provided on the power supply path from the DC power supply to the DC power supply section is activated and the power supply to the discharge lamp is interrupted, a signal is sent from the control circuit to the display means and the discharge lamp A discharge lamp lighting circuit characterized in that it is notified that an abnormality has occurred in lighting.

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